//
//
// Copyright 2017 gRPC authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//     http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
//

#ifndef GRPC_TEST_CORE_TSI_TRANSPORT_SECURITY_TEST_LIB_H
#define GRPC_TEST_CORE_TSI_TRANSPORT_SECURITY_TEST_LIB_H

#include <grpc/support/sync.h>
#include <openssl/x509v3.h>

#include "src/core/tsi/transport_security_interface.h"

#define TSI_TEST_TINY_HANDSHAKE_BUFFER_SIZE 32
#define TSI_TEST_SMALL_HANDSHAKE_BUFFER_SIZE 128
#define TSI_TEST_SMALL_READ_BUFFER_ALLOCATED_SIZE 41
#define TSI_TEST_SMALL_PROTECTED_BUFFER_SIZE 37
#define TSI_TEST_SMALL_MESSAGE_BUFFER_ALLOCATED_SIZE 42
#define TSI_TEST_SMALL_CLIENT_MAX_OUTPUT_PROTECTED_FRAME_SIZE 39
#define TSI_TEST_SMALL_SERVER_MAX_OUTPUT_PROTECTED_FRAME_SIZE 43
#define TSI_TEST_DEFAULT_BUFFER_SIZE 4096
#define TSI_TEST_DEFAULT_PROTECTED_BUFFER_SIZE 16384
#define TSI_TEST_DEFAULT_CHANNEL_SIZE 32768
#define TSI_TEST_BIG_MESSAGE_SIZE 17000
#define TSI_TEST_SMALL_MESSAGE_SIZE 10
#define TSI_TEST_NUM_OF_ARGUMENTS 7
#define TSI_TEST_NUM_OF_COMBINATIONS 128
#define TSI_TEST_UNUSED_BYTES "HELLO GOOGLE"

// ---  tsi_test_fixture object ---
// The tests for specific TSI implementations should create their own
// custom "subclass" of this fixture, which wraps all information
// that will be used to test correctness of TSI handshakes and frame
// protect/unprotect operations with respect to TSI implementations.
typedef struct tsi_test_fixture tsi_test_fixture;

// ---  tsi_test_frame_protector_fixture object ---
// The object wraps all necessary information used to test correctness of TSI
// frame protector implementations.
typedef struct tsi_test_frame_protector_fixture
    tsi_test_frame_protector_fixture;

// ---  tsi_test_frame_protector_config object ---
// This object is used to configure different parameters of TSI frame protector
// APIs.
typedef struct tsi_test_frame_protector_config tsi_test_frame_protector_config;

// ---  tsi_test_channel object ---
// This object represents simulated channels between the client and server
// from/to which they could read/write the exchanged information.
typedef struct tsi_test_channel tsi_test_channel;

// V-table for tsi_test_fixture operations that are implemented differently in
// different TSI implementations.
typedef struct tsi_test_fixture_vtable {
  void (*setup_handshakers)(tsi_test_fixture* fixture);
  void (*check_handshaker_peers)(tsi_test_fixture* fixture);
  void (*destruct)(tsi_test_fixture* fixture);
} tsi_test_fixture_vtable;

struct tsi_test_fixture {
  const tsi_test_fixture_vtable* vtable;
  // client/server TSI handshaker used to perform TSI handshakes, and will get
  // instantiated during the call to setup_handshakers.
  tsi_handshaker* client_handshaker;
  tsi_handshaker* server_handshaker;
  // client/server TSI handshaker results used to store the result of TSI
  // handshake. If the handshake fails, the result will store NULL upon
  // finishing the handshake.
  tsi_handshaker_result* client_result;
  tsi_handshaker_result* server_result;
  // size of buffer used to store data received from the peer.
  size_t handshake_buffer_size;
  // tsi_test_channel instance.
  tsi_test_channel* channel;
  // tsi_test_frame_protector_config instance
  tsi_test_frame_protector_config* config;
  // a flag indicating if client has finished TSI handshake first (i.e., before
  // server).
  // The flag should be referred if and only if TSI handshake finishes
  // successfully.
  bool has_client_finished_first;
  // a flag indicating whether to test tsi_handshaker_result_get_unused_bytes()
  // for TSI implementation. This field is true by default, and false
  // for SSL TSI implementation due to grpc issue #12164
  // (https://github.com/grpc/grpc/issues/12164).
  //
  bool test_unused_bytes;
  // These objects will be used coordinate client/server handshakers with TSI
  // thread to perform TSI handshakes in an asynchronous manner (for GTS TSI
  // implementations).
  //
  gpr_cv cv;
  gpr_mu mu;
  bool notified;
};

struct tsi_test_frame_protector_fixture {
  // client/server TSI frame protectors whose ownership are transferred.
  tsi_frame_protector* client_frame_protector;
  tsi_frame_protector* server_frame_protector;
  // tsi_test_channel instance.
  tsi_test_channel* channel;
  // tsi_test_frame_protector_config instance
  tsi_test_frame_protector_config* config;
};

struct tsi_test_channel {
  // simulated channels between client and server. If the server (client)
  // wants to send data to the client (server), he will write data to
  // client_channel (server_channel), which will be read by client (server).
  uint8_t* client_channel;
  uint8_t* server_channel;
  // size of data written to the client/server channel.
  size_t bytes_written_to_client_channel;
  size_t bytes_written_to_server_channel;
  // size of data read from the client/server channel
  size_t bytes_read_from_client_channel;
  size_t bytes_read_from_server_channel;
};

struct tsi_test_frame_protector_config {
  // size of buffer used to store protected frames to be unprotected.
  size_t read_buffer_allocated_size;
  // size of buffer used to store bytes resulted from unprotect operations.
  size_t message_buffer_allocated_size;
  // size of buffer used to store frames resulted from protect operations.
  size_t protected_buffer_size;
  // size of client/server maximum frame size.
  size_t client_max_output_protected_frame_size;
  size_t server_max_output_protected_frame_size;
  // pointer that points to client/server message to be protected.
  uint8_t* client_message;
  uint8_t* server_message;
  // size of client/server message.
  size_t client_message_size;
  size_t server_message_size;
};

// This method creates a tsi_test_frame_protector_config instance. Each
// parameter of this function is a boolean value indicating whether to set the
// corresponding parameter with a default value or not. If it's false, it will
// be set with a specific value which is usually much smaller than the default.
// Both values are defined with #define directive.
tsi_test_frame_protector_config* tsi_test_frame_protector_config_create(
    bool use_default_read_buffer_allocated_size,
    bool use_default_message_buffer_allocated_size,
    bool use_default_protected_buffer_size, bool use_default_client_message,
    bool use_default_server_message,
    bool use_default_client_max_output_protected_frame_size,
    bool use_default_server_max_output_protected_frame_size);

// This method sets different buffer and frame sizes of a
// tsi_test_frame_protector_config instance with user provided values.
void tsi_test_frame_protector_config_set_buffer_size(
    tsi_test_frame_protector_config* config, size_t read_buffer_allocated_size,
    size_t message_buffer_allocated_size, size_t protected_buffer_size,
    size_t client_max_output_protected_frame_size,
    size_t server_max_output_protected_frame_size);

// This method destroys a tsi_test_frame_protector_config instance.
void tsi_test_frame_protector_config_destroy(
    tsi_test_frame_protector_config* config);

// This method initializes members of tsi_test_fixture instance.
// Note that the struct instance should be allocated before making
// this call.
void tsi_test_fixture_init(tsi_test_fixture* fixture);

// This method destroys a tsi_test_fixture instance. Note that the
// fixture instance must be dynamically allocated and will be freed by
// this function.
void tsi_test_fixture_destroy(tsi_test_fixture* fixture);

// This method creates a tsi_test_frame_protector_fixture instance.
tsi_test_frame_protector_fixture* tsi_test_frame_protector_fixture_create();

// This method initializes members of tsi_test_frame_protector_fixture instance.
// Note that the struct instance should be allocated before making
// this call.
void tsi_test_frame_protector_fixture_init(
    tsi_test_frame_protector_fixture* fixture,
    tsi_frame_protector* client_frame_protector,
    tsi_frame_protector* server_frame_protector);

// This method destroys a tsi_test_frame_protector_fixture instance. Note that
// the fixture instance must be dynamically allocated and will be freed by this
// function.
void tsi_test_frame_protector_fixture_destroy(
    tsi_test_frame_protector_fixture* fixture);

// This method performs a protect operation on raw data and sends the result to
// peer.
void tsi_test_frame_protector_send_message_to_peer(
    tsi_test_frame_protector_config* config, tsi_test_channel* channel,
    tsi_frame_protector* protector, bool is_client);

// This method receives message from peer and unprotects it.
void tsi_test_frame_protector_receive_message_from_peer(
    tsi_test_frame_protector_config* config, tsi_test_channel* channel,
    tsi_frame_protector* protector, unsigned char* message,
    size_t* bytes_received, bool is_client);

// This method performs a full TSI handshake between a client and a server.
// Note that the test library will implement the new TSI handshaker API to
// perform handshakes.
void tsi_test_do_handshake(tsi_test_fixture* fixture);

// This method performs a round trip test between the client and the server.
// That is, the client sends a protected message to a server who receives the
// message, and unprotects it. The same operation is triggered again with
// the client and server switching its role.
void tsi_test_do_round_trip(tsi_test_fixture* fixture);

// This method performs the above round trip test without doing handshakes.
void tsi_test_frame_protector_do_round_trip_no_handshake(
    tsi_test_frame_protector_fixture* fixture);

struct SelfSignedCertificateOptions {
  std::string common_name;
  std::string organization;
  std::string organizational_unit;
};

// Returns a PEM-encoded self-signed certificate.
std::string GenerateSelfSignedCertificate(
    const SelfSignedCertificateOptions& options);

// Returns the OpenSSL representation of a PEM cert.
X509* ReadPemCert(absl::string_view pem_cert);

// Returns the OpenSSL representation of a CRL.
X509_CRL* ReadCrl(absl::string_view crl_pem);

#endif  // GRPC_TEST_CORE_TSI_TRANSPORT_SECURITY_TEST_LIB_H
